Post on 27-Apr-2020
PENNICHUCK BROOKWATERSHED
BUILD-OUT ANALYSIS
JUNE 30, 2003
Prepared by the
Nashua Regional Planning Commission
This project was funded by
NEW HAMPSHIREDEPARTMENT OF
Environmental Services
Pennichuck Brook Watershed Build-out AnalysisJune 2003
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INTRODUCTION
The Pennichuck Brook watershed (Figure 1) includes approximately 17,700 acres within thecommunities of Amherst, Hollis, Merrimack, Milford and Nashua and is the primary drinking watersupply for the City of Nashua and several of other communities. Several areas of the watershed arerapidly developing, which, in turn, is impacting the watershed. The Pennichuck Watershed Council wasestablished to protect the water supply from the impacts of this development in the watershed. In 2003,the Nashua Regional Planning Commission obtained grant funds under the Regional EnvironmentalPlanning Program to assist in developing a better understanding of the current health of the watershedand work with the surrounding communities to develop a comprehensive approach toward watershedprotection.
The goal of this analysis was to devise a series of maps that can be used to protect the ecologicalintegrity of the Pennichuck Brook watershed by forecasting how the impacts of future development couldaffect drinking water quality. The project was developed using Geographic Information System (GIS)technology. The project includes four tasks, as follows:
• Task 1. Existing Conditions Analysis
• Task 2. Riparian Buffer Analysis
• Task 3. Impervious Surface Analysis
• Task 4. Buildout Analysis
Figure 1: Pennichuck Brook Watershed Location
Source: NRPC GIS, 2003
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TASK 1. EXISTING CONDITIONS ANALYSIS
Understanding the present conditions in a watershed is essential in order to estimate potentialfuture changes. In the first task, existing GIS data for the watershed was collected to develop a base mapof the watershed. Map 1 provides a snapshot of the existing conditions in the watershed. The variousfeatures on Map 1 include community and watershed boundaries, parcels, roads and waterbodies. Note:In order to be consistent, the information used to develop Map 1 and subsequent maps included theexisting conditions in the watershed as of February 2003. The GIS data sources that were used to developthe base map are in Appendix A.
TASK 2. RIPARIAN BUFFER ANALYSIS
In the second task, existing and proposed riparian buffers in the watershed were identified forthe purpose of understanding the existing level of protection as well as what is potentially available forfuture protection in the watershed. Riparian buffers are strips of vegetation along the banks of rivers andstreams that filter polluted runoff and provide a transition zone between water and human land use.1
They are an effective and cost-efficient best management practice that can be used to maintain or enhancewater quality, prevent flooding, and provide wildlife habitat.
State and municipal land use regulations and restrictive covenants effective within thePennichuck Brook watershed have established riparian buffers within a defined distance from theshoreline. These regulations provide a variety of protection to the surface waters in the watershed. Forexample, the City of Nashua established a 75-foot no-disturbance buffer around all prime wetlands andPennichuck Pond and its tributaries. The Town of Hollis, however, designated a 100-foot restrictedbuffer around all wetlands and hydric soils in addition to Pennichuck Pond and its tributaries. Table 1summarizes the various buffers applicable to the watershed. Map 2 illustrates these established buffersfor the entire watershed.
As shown in Table 1, the established riparian buffers provide some areas of the watershed moreprotection than others. For example, a restrictive covenant established a 500-foot buffer around theSupply Pond and 300-foot buffer around the remaining ponds. In order to protect water quality in thewatershed, however, the Pennichuck Water Works Watershed Management Plan recommends “to use a 400-foot buffer around all the chain ponds and a 200-foot buffer from the Ordinary High Water Mark aroundthe tributaries and wetlands that are directly adjacent to the chain ponds.”2 The Pennichuck BrookWatershed Council suggested that the 400-foot buffer be extended to include the chain ponds and all ofthe tributaries in the watershed (see Map 3).
Once the suggested 400-foot buffer was mapped, the watershed was analyzed to determine ifthere were areas that could be further protected through acquisition of land. All of the undeveloped andunprotected parcels in the watershed were identified. Any of these parcels that are adjacent to thesuggested 400-foot buffer (shown in pink on Map 4) were labeled as potentially available for acquisition.
1 Connecticut River Joint Commissions, Introduction to Riparian Buffers, September 2000.2 Comprehensive Environmental, Inc., Pennichuck Water Works Watershed Management Plan, August 1998.
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Table 1: Established Riparian Buffers in the Pennichuck Brook WatershedMunicipality
or EntityPennichuck Ponds Pennichuck Brook and
TributariesWetlands Adjacent to Pennichuck
Ponds and Tributaries
+50 ft “Critical Area” includes wetlands, floodplains, shoreline, and adjacent steep slopesNatural state except road and utility crossings
500 ft buffer for SupplyPond critical area; 300 ftbuffer for other ponds’
critical areas
300 ft buffer for tributaries’critical areas 100 ft buffer for other wetlands
Lands now orformerly
owned byPennichuck(Restrictivecovenants)
Buffer areas natural state except limited clearing
Nashua
225 ft undisturbed except forveg. swales (“Conservation
zone”);300 ft No fertilizers or
pesticides
75 ft undisturbed except for veg. swales (“Conservation zone”);150 ft No fertilizers or pesticides; stormwater treatment and
infiltration requirement
Hollis100 ft no construction activity (or 14 other prohibited uses) for wetlands and hydric soils (exemptions
for agriculture and forestry); most (all?) of Pennichuck Pond is bordered by wetlands
Merrimack250 ft Protected Shoreland (25 ft No fertilizer or clearing; 40 ft no building; 50 ft Primary Building
Setback; 150 ft Natural Woodland Buffer; soils-based lot size and septic setbacks; no salt piles, wastefacilities, junk yards); most is former Pennichuck land
Amherst Not in Amherst
100 ft naturally vegetated buffer for Public Water ProtectionWetlands (includes certain wetlands in watershed); 25 ft for other
wetlands: no filling or alteration of contours, except as determined byPlanning Board (may require a mitigation plan), as for
road/driveway crossings, forestry and agriculture acc to BMPs
Milford Not in Milford50 ft no disturbance; 100 ftsetback for leach fields; all
zoned residential25 ft no disturbance
Entirewatershed( NH DES
rule)
75 ft No privies, structures housing animals, septic systems,solid waste, wastewater
Source: New Hampshire Department of Environmental Services, 2003
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The following steps were taken to analyze the existing and proposed riparian buffers in thewatershed:
1. Assign a generalized land use category to each parcel. Each parcel in thewatershed was assigned a generalized land use category: agricultural, conservation,developed (which includes roads), water (hydric), and vacant. Tables 2A and 2B present theacreage and percentage of these land uses within each community and subwatershed in thewatershed. This allowed for the selection of parcels by land use.
Table 2A: Generalized Land Uses by Municipality
Agriculture Conservation Developed Water VacantMunicipality
Acres % Acres % Acres % Acres % Acres %
Total Area inWatershed
(acres)
Amherst 0 0% 3 0% 866 48% 48 3% 898 49% 1,814
Hollis 1,192 16% 873 11% 2,711 36% 481 6% 2,362 31% 7,619
Merrimack 0% 184 5% 1,763 51% 201 6% 1,278 37% 3,427
Milford 11 1% 93 7% 338 26% 0% 870 66% 1,312
Nashua 11 0% 449 13% 2,280 65% 287 8% 493 14% 3,520
Total 1,214 7% 1,602 9% 7,959 45% 1,018 6% 5,901 33% 17,694
Source: NRPC GIS, 2003.
Table 2B: Generalized Land Uses by Subwatershed
Agriculture Conservation Developed Water VacantSubwatershed
Acres % Acres % Acres % Acres % Acres %
Total Area inWatershed
(acres)
Muddy Brook 617 22% 414 15% 734 26% 212 7% 857 30% 2,834
PennichuckBrook (N) 17 0% 429 7% 3,255 57% 478 8% 1,551 27% 5,730
PennichuckBrook (S) 298 19% 286 18% 443 28% 89 6% 439 28% 1,554
Witches Brook(N) 68 1% 53 1% 2,528 53% 223 5% 1,882 40% 4,755
Witches Brook (S) 215 8% 420 15% 998 35% 15 1% 1,173 42% 2,821
Total 1,214 7% 1,602 9% 7,959 45% 1,018 6% 5,901 33% 17,694
Source: NRPC GIS, 2003
2. Research and map established riparian buffers. The established riparian bufferdimensions differed by municipality and land use as shown in Table 1. The buffer criteriawere analyzed and applied to all parcels based on the land uses identified in the previousstep. All applicable buffers, for each land use, were then merged into one GIS coverage tocreate a map of the established riparian buffers in the watershed (see Map 2).
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3. Map the suggested 400-foot riparian buffer. The suggested 400-foot buffer wasplaced around every chain pond and tributary in the watershed (see Map 3). Tables 3A and3B summarize the area of the suggested 400-foot buffer in each municipality andsubwatershed, respectively.
4.
Table 3A: Area of Suggested 400-foot Buffer by Municipality
MunicipalitySuggested 400-foot Buffer
(acres)Area of Municipality in Watershed
(acres)
Amherst 360 1,813Hollis 1,371 7,629
Merrimack 602 3,419Milford 9 1,309Nashua 607 3,524
Total Acres 2,949 17,694
Source: NRPC GIS, 2003
Table 3B: Area of Suggested 400-foot Buffer by Subwatershed
Subwatershed Suggested 400-foot Buffer(acres)
Area of Subwatershed in Watershed(acres)
Muddy Brook 563 2,834Pennichuck Brook (N) 981 5,730Pennichuck Brook (S) 315 1,554
Witches Brook (N) 759 4,755Witches Brook (S) 331 2,821
Total 2,949 17,694
Source: NRPC GIS, 2003
5. Remove conservation and developed parcels. Parcels that were identified asconservation or developed land were removed from consideration for potential acquisition.
6. Analyze remaining land for potential acquisition. Map 4 was analyzed toidentify parcels that were undeveloped, unprotected and adjacent to the suggested 400-footbuffer. These parcels are considered potentially available for acquisition or other protectivemeasures. Tables 4A and 4B analyze the area of the suggested 400-foot buffer that is adjacentto undeveloped, unprotected land. Tables 5A and 5B analyze the total area of theundeveloped, unprotected land that is adjacent to the suggested 400-foot buffer.
7.
The area of the suggested 400-foot buffer that is adjacent to undeveloped, unprotected land in themunicipalities and the subwatersheds is summarized in Tables 4A and 4B. A total of 564 acres of thesuggested 400-foot buffer are adjacent to vacant lands with the majority located in the Town of Hollis,with a total of 211 acres. Witches Brook North, which is located in the Towns of Milford, AmherstMerrimack and Hollis, contains the largest area of the suggested 400-foot buffer with 195 acres. Map 4displays the areas where the suggested 400-foot buffer intersects these vacant parcels.
Tables 5A and 5B summarize the total area of the undeveloped, unprotected parcels that are adjacent tothe suggested 400-foot buffer. 3,380 acres of vacant land in the watershed is adjacent to the suggested
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400-foot buffer, with a majority of the parcels found in the Pennichuck Brook North subwatershed whichis located in the City of Nashua and the Town of Merrimack. As indicated on Map 4, a large portion ofthese vacant parcels are located in the Town of Merrimack, north of the ponds.
Table 4A: Area of Suggested 400-foot Buffer Adjacent to Undeveloped, UnprotectedParcels by Municipality
MunicipalityArea of Suggested 400' buffer
Adjacent to Undeveloped,Unprotected Parcels (acres)
Total Area of Municipality inWatershed (acres)
Amherst 159 1,813Hollis 211 7,629
Merrimack 98 3,419Milford 7 1,309Nashua 88 3,524
Total 564 17,694
Source: NRPC GIS, 2003
Table 4B: Area of Suggested 400-foot Buffer Adjacent to Undeveloped, UnprotectedParcels by Subwatershed
SubwatershedArea of Suggested 400' buffer
Adjacent to Undeveloped,Unprotected Parcels (acres)
Total Area of Subwatershed inWatershed (acres)
Muddy Brook 82 2,834Pennichuck Brook (N) 161 5,730Pennichuck Brook (S) 35 1,554
Witches Brook (N) 195 4,755Witches Brook (S) 90 2,821
Total 564 17,694
Source: NRPC GIS, 2003
Tables 5A: Area of Undeveloped, Unprotected Parcels Adjacent to Suggested 400-foot Buffer by Municipality
MunicipalityTotal Area of the Parcels Adjacent
to Suggested 400’ Buffer(acres)
Total Area of Municipality inWatershed (acres)
Amherst 555 1,813Hollis 1,605 7,629
Merrimack 813 3,419Milford 41 1,309Nashua 365 3,524
Total 3,380 17,694
Source: NRPC GIS, 2003
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Table 5B: Area of Undeveloped, Unprotected Parcels Adjacent to Suggested 400-footBuffer by Subwatershed
SubwatershedTotal Area of the Parcels
Adjacent to Suggested 400’Buffer (acres)
Total Area of Subwatershed(acres)
Muddy Brook 818 2,834Pennichuck Brook (N) 1,146 5,730Pennichuck Brook (S) 237 1,554
Witches Brook (N) 842 4,755Witches Brook (S) 338 2,821
Total 3,380 17,694
Source: NRPC GIS, 2003
TASK 3. IMPERVIOUS SURFACE ANALYSIS
In the third task, the amount of impervioussurface in the watershed was identified. Impervioussurfaces such as roofs, roads, parking lots anddriveways increase the rate by which pollutantsaccumulate and run off into water bodies duringstorm events. This runoff can potentially degradewater quality. The rate and flow of runoff isexacerbated with increased imperviousness andintensity of land use. A study by the Center forWatershed Protection suggests that a watershed maybe impacted when there is as little as 11% imperviouscover (see Figure 22). At this percentage, streams mayshow signs of degradation due to watershedurbanization. The definitions of the three categoriesused to gauge the health of a watershed based onimpervious cover is in Appendix B.
The Center for Watershed Protection developed a methodology which uses multipliers toestimate the amount of impervious area for various land uses in a watershed (see Table 6). Eachmultiplier indicates the “typical” amount of impervious surface occupied by each land use. Using thesemultipliers, the amount of impervious surface in the Pennichuck Brook watershed was calculated in twoways: 1) based on actual data collected in the field along the NH Route 101A corridor; and 2) based onestimates for existing land uses in the remainder of the watershed. These two areas are depicted inFigure 3.
Figure 2: Impervious Cover Model
Source: Center for Watershed Protection, www.cwp.org
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Table 6: Impervious Area Coefficient by Land Use Category
Land UseCategory
Impervious AreaCoefficient
(% of Total Area)Vacant 0.0%Conservation Land 0.0%Agriculture 1.9%Open Urban Land 8.6%2 Acre Lot Residential 10.6%1 Acre Lot Residential 14.3%1/2 Acre Lot Residential 21.2%1/8 Acre Lot Residential 32.6%Townhome Residential 40.9%Multifamily Residential 44.4%Institutional 34.4%Industrial 53.4%Commercial 72.2%Road 100%Water 0.0%
Source: Center for Watershed Protection, www.cwp.org
In 2002, NRPC completed the NH Route 101A Corridor Study and Master Plan. The study area,depicted in Figure 3, contains approximately 2,053 acres of urbanized area in the Pennichuck Brookwatershed. The study includes precise data collected for each parcel located within 1,500 feet of thecenterline of the NH Route 101A corridor. The accuracy of the data enabled the GIS staff to calculate theactual impervious surface cover for the corridor. Detailed parcel data does not exist for the area outsideof the corridor, however, so it was estimated based on existing land uses.
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Figure 3: NH Route 101A Corridor Area
Source: NRPC GIS, 2003
Using the coefficients for various land uses presented in Table 6, the data was calculatedseparately for the NH Route 101A corridor (see Tables 7A and 7B) and the remainder of the watershed(see Appendix C and D). The two data sources were then combined to create a total impervious surfacepercentage for the watershed (see Map 5). The combined results are presented in Tables 8A and 8B.
Task 3 includes the following steps:
1. Calculate impervious surface in the NH Route 101A corridor study area. Using the detailedinformation collected for the parcels along the NH Route 101A corridor, the area ofimpervious surface was calculated for the corridor. Tables 7A and 7B present the area ofimpervious surface by subwatershed and municipality for the portion of NH Route 101Acorridor within the watershed.
Table 7A: Area of Existing Impervious Surface along the NH Route 101A Corridor byMunicipality
MunicipalityTotal Area in Corridor
(acres)
Area of ExistingImpervious Surface
(acres)
% Existing ImperviousSurface
Amherst 741 73 10%Hollis 88 0 0%
Merrimack 400 93 23%Nashua 824 305 37%
Total 2,053 472 23%
Source: NRPC GIS, 2003
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Table 7B: Area of Impervious Surface along the NH Route 101A Corridor bySubwatershed
SubwatershedTotal Area in Corridor
(acres)
Area of ExistingImpervious Surface
(acres)
% Existing ImperviousSurface
Pennichuck Brook (N) 1,066 355 33%Witches Brook (N) 987 116 12%
Total 2,053 472 23%
Source: NRPC GIS, 2003
2. Refine land use categories for the remainder of the watershed. The purpose of refining theland use categories was to identify the specific use on each parcel in order to utilize themethodology created by the Center for Watershed Protection. The land use categoriesidentified in Table 6 were then assigned to each parcel.
3. Calculate the impervious surface percentage for the remainder of the watershed. Using themultipliers developed by the Center for Watershed Protection in Table 6, the area ofimpervious surface on each parcel in the remainder of the watershed was identified. Theresults were calculated by subwatershed and by municipality (see Appendix C and D).
4. Calculate total impervious surface for the entire watershed. The area of impervious surfacecalculated for the NH Route 101A corridor and for the remainder of the watershed werecombined to identify the total area of existing impervious surface for the entire watershed.Tables 8A and 8B present the total area of impervious surface by subwatershed andmunicipality. The area of impervious surface is illustrated on Map 5.
Table 8A: Area of Impervious Surface by Municipality
MunicipalityTotal Area in Watershed
(acres)
Area of ExistingImpervious Surface
(acres)
% Existing ImperviousSurface
Amherst 1,813 274 15%Hollis 7,629 524 7%
Merrimack 3,419 585 17%Milford 1,309 57 4%Nashua 3,524 984 28%
Total 17,694 2,423 14%
Source: NRPC GIS, 2003
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Table 8B: Area of Impervious Surface by Subwatershed
SubwatershedTotal Area in
Watershed(acres)
Area of ExistingImpervious Surface
(acres)
% ExistingImpervious Surface
Muddy Brook 2,834 160 6%Pennichuck Brook (N) 5,730 1,381 24%Pennichuck Brook (S) 1,554 96 6%
Witches Brook (N) 4,755 615 13%Witches Brook (S) 2,821 171 6%
Total 17,694 2,423 14%
Source: NRPC GIS, 2003
The results of this analysis are summarized by subwatershed and municipality in Tables 8A and8B. Table 8A indicates that approximately 2,423 acres, or 14%, of the watershed, is currently impervious.Map 5 indicates that the more impervious surfaces are concentrated along the NH Route 101A corridorand in the City of Nashua in general.
As shown in Appendices C and D, several land uses in the watershed are contributing greatly tothe existing area of impervious surface: buildings, commercial and industrial uses, multifamily andtownhomes, and roads. The two subwatersheds that are affected the most by these land uses arePennichuck Brook North and Witches Brook North, with 24% and 13% of imperious surface respectively(see Appendix C). According to the Center for Watershed Protection’s impervious cover model (seeFigure 3 and Appendix B), watersheds with 11-25% imperviousness can be considered impacted and may“show clear signs of degradation.” The model also indicates that watersheds that are greater than 25%impervious may be considered non-supporting. For example, the existing area of impervious surface inthe Pennichuck Brook North subwatershed is 1,381 acres. If approximately 52 additional acres ofimpervious surface are developed then the subwatershed may be placed in the non-supporting categorybecause it will have reached an impervious surface cover of 25%.
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TASK 4. BUILD-OUT ANALYSIS
A build-out analysis of the watershed was completed in Task 4. A build-out analysis is atheoretical assessment of the quantity of new development that could be constructed based on acommunity’s existing land use regulations and physical development constraints. The results of a build-out analysis can be used to estimate the future area of impervious surface in a watershed. Map 6illustrates the amount of potential new development in the Pennichuck Brook watershed.
Task 4 includes the following steps:
1. Identify undeveloped land. Parcels that are undeveloped were identified andverified by examining aerial photography and field review, as required.
2. Remove undevelopable land. The portions of parcels constrained by wetlands,steep slopes (>25%), floodplains, agricultural soils and established buffers (see Table 1) wereclassified as un-buildable and subtracted from the area of undeveloped land.
3. Remove small parcels. Lots less than or equal to the minimum lot sizerequirement designated by each community’s zoning ordinance were consideredundevelopable and subtracted from the total area of undeveloped land.
4. Remove 5% for subdivision regulations. Five percent (5%) of the remainingarea of undeveloped land was subtracted to account for design issues and required rights-of-ways in a subdivision. The result is the “net developable area.”
5. Divide by minimum lot size. The net developable area was divided by theminimum lot size designated by each community’s zoning ordinance. The result is themaximum build-out potential by number of lots. This is expressed at the municipal andsubwatershed levels, as indicated in Appendices F and G.
6. Calculate potential future area of impervious surface. Each potential newparcel was multiplied by the Center for Watershed Protection’s impervious surfacecoefficient for the associated land use designation/zoning category. The total potential areaof impervious surface was then added to the existing area of impervious surface to yield thetotal potential future area of impervious surface at build-out. The results are summarized inTables 9A and 9B and illustrated on Map 6.
The results of the build-out analysis, summarized in Tables 9A and 9B, indicate that an additional3,337 acres of impervious surface could be developed in the watershed. This will increase the impervioussurface coverage in the watershed from 14% to 32% which, according to the Center for WatershedProtection impervious cover model, is well within the non-supporting category.
Table 9B shows that the additional impervious surface could potentially place two of the fivesubwatersheds in the non-supporting category – Pennichuck Brook North and Witches Brook North.Over half (53%) of the Pennichuck Brook North watershed is estimated to be developed by impervioussurfaces at build-out with the majority of the new development located north of the ponds in the Town ofMerrimack. In the Witches Brook North subwatershed, just over one-third (32%) is estimated to bedeveloped with impervious surfaces, with the bulk of the development located in the Towns of Amherstand Milford.
As shown on Map 6, the majority of the development in the remainder of the watershed isestimated to be in existing rural areas such as the eastern section of the Town of Hollis, most of the
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section of the Town of Milford that is in the watershed, and the area south of NH Route 101A in the Townof Amherst.
Table 9A: Total Area of Potential Future Impervious Surface by Municipality
MunicipalityTotal Area in
Watershed(acres)
Existing Areaof Impervious
Surface(acres)
Potential Areaof AdditionalImpervious
Surface(acres)
Total Area ofFuture
ImperviousSurface(acres)
Existing %Impervious
Surface
PotentialFuture %
ImperviousSurface
Amherst 1,813 274 487 761 15% 42%Hollis 7,629 524 808 1,332 7% 17%
Merrimack 3,419 585 776 1,361 17% 40%Milford 1,309 57 153 209 4% 16%Nashua 3,524 984 1,113 2,097 28% 59%
Total 17,694 2,423 3,337 5,760 14% 32%
Source: NRPC GIS, 2003
Table 9B: Total Area of Potential Future Impervious Surface by Subwatershed
Subwatershed
Total Areain
Watershed(acres)
Existing Areaof Impervious
Surface(acres)
Potential Areaof AdditionalImpervious
Surface(acres)
Total Area ofFuture
ImperviousSurface(acres)
Existing %Impervious
Surface
PotentialFuture %
ImperviousSurface
Muddy Brook 2,834 160 305 465 6% 16%Pennichuck Brook (N) 5,730 1,381 1,648 3,028 24% 53%Pennichuck Brook (S) 1,554 96 155 250 6% 16%
Witches Brook (N) 4,755 615 930 1,545 13% 32%Witches Brook (S) 2,821 171 300 472 6% 17%
Total 17,694 2,423 3,337 5,760 14% 32%
Source: NRPC GIS, 2003
CONCLUSION
The figures and maps presented in this report are based on an analysis of statistical data, localzoning ordinances and private covenants. These data sources were used to develop an estimate of thepotential area of impervious surface that could be developed within the Pennichuck Brook watershed.This analysis can be used by municipalities to evaluate the impacts of local zoning, review proposeddevelopment, and suggest transportation improvements in the watershed. The figures provided in thisanalysis can be used as indicators of the current health and state of the watershed which can, in turn, beused to cooperatively develop a more comprehensive approach towards watershed protection. Theanalysis can be used as a local and regional guide to gauge the health of the subwatersheds within eachcommunity and mitigate development impacts to protect the health and ecological integrity of thePennichuck Brook Watershed.
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APPENDIX AGIS Data Layers for Base Mapping
Data Layer Source Description
CommunityBoundaries GRANIT Data was distributed by GRANIT
Parcels NRPC/ Local assessing records andmaps
Parcels were assigned a uniqueidentification value indicating themunicipality, subwatershed and map-lot-sublot descriptive values.
Roads NH DOT Updated by NRPC field review, 2002
Hydrography USGS/GRANIT Data was distributed by GRANIT
Conservation LandsSPNHF/The Nature
Consevancy/SweetwaterTrust/GRANIT/NRPC
Based on a regional updata to the State ofNH Conservation Lands Inventory, 2002
Note: NH DOT = NH Department of Transportation; GRANIT = Geographically Referenced Analysis and Information TransferSystem; SPNHF = Society for the Protection of New Hampshire’s Forests.
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APPENDIX B
Definitions of the Impervious Surface Model Categories
Sensitive Stream - Subwatershed typically has impervious cover of 0-10%. Streams are of high quality,and are typified by stable channels, excellent habitat structure, good to excellent water quality, anddiverse communities of both fish and aquatic insects. Since impervious cover is so low, they do notexperience frequent flooding and other hydrological changes that accompany urbanization.
Impacted Stream - Subwatershed typically has impervious cover ranging from 11-25%, and shows clearsigns of degradation due to watershed urbanization. Greater storm flows begin to alter the streamgeometry. Both erosion and channel widening are evident in alluvial streams. Stream banks becomeunstable, and physical habitat in the stream declines noticeably. Stream water quality shifts into thefair/good category during both storms and dry weather periods. Stream biodiversity declines to fairlevels, with the most sensitive fish and aquatic insects disappearing from the stream.
Non-Supporting Stream - Subwatershed impervious cover exceeds 25%. Streams in this categoryessentially become a conduit for conveying stormwater flows, and can no longer support a diverse streamcommunity. The stream channel is often highly unstable, and stream reaches can experience severewidening, down-cutting and streambank erosion. Pool and riffle structure needed to sustain fish isdiminished or eliminated, and the stream substrate can no longer provide habitat for aquatic insects, orspawning areas for fish. Water quality is consistently rated as fair to poor, and water-contact recreation isno longer possible due to the presence of high bacterial levels. The biological quality of non-supportingstreams is generally considered poor, and is dominated by pollution tolerant insects and fish.
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APPENDIX CExisting Area of Impervious Surface by Land Use by Subwatershed *
Muddy Brook PennichuckBrook (N)
PennichuckBrook (S)
Witches Brook(N)
Witches Brook(S)
Land UseImperv.
AreaTotalArea
Imperv.Area
TotalArea
Imperv.Area
TotalArea
Imperv.Area
TotalArea
Imperv.Area
TotalArea
Total Areaof
ExistingImperv.Surface(acres)
TotalArea ofLandUse
(acres)
Total %Imperv.
Surface inWatershed
1 Acre Res. 0 0 25 177 0 0 1 6 0 0 26 183 14%
1/2 Acre Res. 3 14 44 206 0 0 0 0 0 0 47 221 21%
1/8 Acre Res. 0 0 13 48 0 0 0 0 0 0 13 48 27%
2 Acre Res. 69 649 52 488 39 368 169 1,596 99 930 427 4,031 11%
3 Acre Res. 0 0 0 0 0 0 6 58 0 0 6 58 11%
Agriculture 12 638 0 17 6 298 1 72 4 215 24 1,239 2%
Building 0 0 18 18 0 0 0 0 0 0 18 18 100%
Commercial 0 0 36 49 0 0 6 8 0 0 41 57 72%
Conservation 0 508 0 552 0 296 0 94 0 425 0 1,875 0%
Industrial 0 0 131 245 0 0 51 95 0 0 182 340 53%
Institution 7 21 88 255 0 0 0 0 0 0 95 276 34%
Multifamily 0 0 47 105 0 0 0 0 0 0 47 105 44%
Open UrbanLand 3 31 17 188 2 23 7 80 0 0 29 322 9%
Townhome 0 0 58 143 0 0 0 0 0 0 58 143 41%
Road 66 66 496 496 49 49 258 258 69 69 938 938 100%
Vacant 0 896 0 1,405 0 455 0 1,501 0 1,182 0 5,440 0%
Water 0 11 0 270 0 65 0 0 0 0 0 345 0%
Total Area(acres) 160 2,834 1,026 4,664 96 1,554 499 3,767 171 2,821 1,952 15,640 12%
Total PercentImpervious 6% 22% 6% 13% 6% 12%
Source: NRPC GIS, 2003
*Note: Table does not include NH Route 101A
Pennichuck Brook Watershed Build-out AnalysisJune 2003
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APPENDIX DExisting Area of Impervious Surface by Land Use by Municipalities *
Amherst Hollis Merrimack Milford Nashua
Land UseImperv.
AreaTotalArea
Imperv.Area
TotalArea
Imperv.Area
TotalArea
Imperv.Area
TotalArea
Imperv.Area
TotalArea
Total Areaof
ExistingImperv.Surface(acres)
TotalArea ofLandUse
(acres)
Total %Imperv.
Surface inWatershed
1 Acre Res. 0 0 0 0 0 0 1 6 25 177 26 183 14%
1/2 Acre Res. 0 0 0 0 0 0 0 0 47 221 47 221 21%
1/8 Acre Res. 0 0 0 0 0 0 0 0 13 48 13 48 27%
2 Acre Res. 36 341 256 2,411 103 969 33 310 0 0 427 4,031 11%
3 Acre Res. 0 0 0 0 6 58 0 0 0 0 6 58 11%
Agriculture 0 0 23 1,218 0 0 0 11 0 11 24 1,239 2%
Building 0 0 0 0 8 8 0 0 9 9 18 18 100%
Commercial 0 0 5 7 1 1 0 0 36 49 41 57 72%
Conservation 0 4 0 1,001 0 215 0 93 0 561 0 1,875 0%
Industrial 51 95 0 0 61 114 0 0 70 132 182 340 53%
Institution 0 0 0 0 0 0 0 0 95 276 95 276 34%
Multifamily 0 0 0 0 47 105 0 0 0 0 47 105 44%
Open UrbanLand 0 0 10 115 2 26 0 0 17 180 29 322 9%
Townhome 0 0 0 0 0 0 0 0 58 143 58 143 41%
Road 114 114 231 231 264 264 23 23 307 307 938 938 100%
Vacant 0 517 0 2,460 0 1,157 0 897 0 439 0 5,440 0%
Water 0 0 0 98 0 100 0 0 0 147 0 345 0%
Total Area(acres) 201 1,072 524 7,541 492 3,018 57 1,309 678 2,700 1,952 15,640 12%
Total PercentImpervious 19% 7% 16% 4% 25% 12%
Source: NRPC GIS, 2003
*Note: Table does not include NH Route 101A
Pennichuck Brook Watershed Build-out AnalysisJune 2003
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APPENDIX E
Constraints to Development GIS Layers
Data Layer Description
Agricultural Soils Data from USDA/NRCS andFIRM whichincludes soil types and attributes
Floodplains 100 and 500-year floodplains as depicted byFIRM
Steep Slopes(>25%)
Data from USDA/NRCS includes soil typesand attributes
Wetlands Data from GRANIT based on USGS DigitalLine Graph
Existing BufferCriteria
Includes buffer distances around waterdesignated by NH DES, PennichuckCorporation and Zoning Ordinances fromAmherst, Hollis, Merrimack, Milford andNashua
Note: USDA SCS = US Dept. of Agriculture, Soil Conservation Service; NRCS = Natural Resource Conservation Service; FIRM= Flood Insurance Rate Map; NH DES = New Hampshire Dept. of Environmental Services
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APPENDIX FBuild-out Potential by Municipality
Area in Watershed Area of Potentially DevelopableLand Area of Undevelopable Land Potential Number of New Lots*
Municipality% of
Watershed Acres % ofCommunity
% ofWatershed Acres % of
Community% of
Watershed Acres % ofCommunity
% ofWatershed Acres
Amherst 10% 1,813 36% 4% 659 14% 1% 262 23% 2% 421
Hollis 43% 7,629 24% 11% 1,866 24% 11% 1,865 11% 5% 811
Merrimack 19% 3,421 16% 3% 554 22% 4% 758 36% 7% 1,227
Milford 7% 1,308 44% 3% 572 23% 2% 306 35% 3% 454
Nashua 20% 3,522 10% 2% 352 5% 1% 161 14% 3% 499
Totals 100% 17,694 4,003 3,351 3,412
Source: NRPC GIS, 2003
* Number of new lots was determined by dividing the minimum lot size designated by each community’s zoningordinance, yielding the maximum build-out potential by number of lots.
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APPENDIX GBuild-out Potential by Subwatershed
Area in Watershed Area of Potentially DevelopableLand Area of Undevelopable Land Potential Number of New Lots*
Subwatershed% of
Watershed Acres % ofCommunity
% ofWatershed Acres % of
Community% of
Watershed Acres % ofCommunity
% ofWatershed Acres
Muddy Brook 16% 2,834 26% 4% 749 28% 4% 785 18% 3% 501
PennichuckBrook (N) 32% 5,730 13% 4% 749 15% 5% 867 26% 8% 1,489
PennichuckBrook (S) 9% 1,554 25% 2% 391 23% 2% 363 11% 1% 166
Witches Brook(N) 27% 4,754 27% 7% 1,307 16% 4% 746 16% 4% 774
Witches Brook(S) 16% 2,821 29% 5% 807 21% 3% 590 17% 3% 482
Totals 100% 17,694 4,003 3,351 3,412
Source: NRPC GIS, 2003
* Number of new lots was determined by dividing the minimum lot size designated by each community’s zoningordinance, yielding the maximum build-out potential by number of lots.
#530E-10
Pennichuck Brook Watershed Build-out Analysis
Map 1: Existing Conditions
Pennichuck Brook Watershed Build-out Analysis
Map 2: Existing Riparian Buffers
Pennichuck Brook Watershed Build-out Analysis
Map 3: Suggested 400-FootRiparian Buffer
Pennichuck Brook Watershed Build-out Analysis
Map 4: Unprotected, Undeveloped LandAdjacent to the Proposed 400-foot Riparian Buffer
Pennichuck Brook Watershed Build-out Analysis
Map 5: Impervious Surface Calculationsby Municipality and Subwatershed
Pennichuck Brook Watershed Build-out Analysis
Map 6: Build-out Potentialby Municipality and Subwatershed